Preparation of activated carbon from carbonized rice husk by ozone activation for Cr (VI) removal

Activated carbon (AC) was prepared from carbonized rice husks using ozone as an activating agent. The AC was characterized by nitrogen adsorption, SEM-EDAX and FT-IR. The Brunauer–Emmett–Teller surface area of the carbons was increased from 20 to 380m2/g by the activation. It was observed that the s...

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Veröffentlicht in:Carbon (New York) 2015-11, Vol.93, p.1086-1087
Hauptverfasser: Sugashini, Sivaraju, Begum, Kadhar Mohamed Meera Sheriffa
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description Activated carbon (AC) was prepared from carbonized rice husks using ozone as an activating agent. The AC was characterized by nitrogen adsorption, SEM-EDAX and FT-IR. The Brunauer–Emmett–Teller surface area of the carbons was increased from 20 to 380m2/g by the activation. It was observed that the silica attached to the carbonaceous material is loosened, leading to a release of carbon during the ozone activation. Ozone exists as both molecular and atomic oxygen on the surface of carbon. Atomic oxygen, as a powerful oxidizing agent, oxidizes the carbon surface into acidic functional groups such as carboxylic, ketonic and phenolic. The rice husk AC was used for the adsorption of Cr (VI) ions. A maximum removal percentage (94%) of Cr (VI) ions was obtained for a 100mg/L aqueous solution at the optimized conditions of pH value of 2.0, adsorbent dosage of 0.2g, time of 2.5h and stirring speed of 300rpm. Adsorption equilibrium and kinetic models were used to investigate the adsorption mechanism. It was found that the adsorption isotherms were well fitted by the Freundlich equation. The adsorption rate follows pseudo second order kinetics and the adsorption is spontaneous and exothermic. It is possible to recover Cr and carbon by NaOH stripping. [New Carbon Materials 2015, 30(3): 252–261]
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The AC was characterized by nitrogen adsorption, SEM-EDAX and FT-IR. The Brunauer–Emmett–Teller surface area of the carbons was increased from 20 to 380m2/g by the activation. It was observed that the silica attached to the carbonaceous material is loosened, leading to a release of carbon during the ozone activation. Ozone exists as both molecular and atomic oxygen on the surface of carbon. Atomic oxygen, as a powerful oxidizing agent, oxidizes the carbon surface into acidic functional groups such as carboxylic, ketonic and phenolic. The rice husk AC was used for the adsorption of Cr (VI) ions. A maximum removal percentage (94%) of Cr (VI) ions was obtained for a 100mg/L aqueous solution at the optimized conditions of pH value of 2.0, adsorbent dosage of 0.2g, time of 2.5h and stirring speed of 300rpm. Adsorption equilibrium and kinetic models were used to investigate the adsorption mechanism. It was found that the adsorption isotherms were well fitted by the Freundlich equation. The adsorption rate follows pseudo second order kinetics and the adsorption is spontaneous and exothermic. It is possible to recover Cr and carbon by NaOH stripping. 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The AC was characterized by nitrogen adsorption, SEM-EDAX and FT-IR. The Brunauer–Emmett–Teller surface area of the carbons was increased from 20 to 380m2/g by the activation. It was observed that the silica attached to the carbonaceous material is loosened, leading to a release of carbon during the ozone activation. Ozone exists as both molecular and atomic oxygen on the surface of carbon. Atomic oxygen, as a powerful oxidizing agent, oxidizes the carbon surface into acidic functional groups such as carboxylic, ketonic and phenolic. The rice husk AC was used for the adsorption of Cr (VI) ions. A maximum removal percentage (94%) of Cr (VI) ions was obtained for a 100mg/L aqueous solution at the optimized conditions of pH value of 2.0, adsorbent dosage of 0.2g, time of 2.5h and stirring speed of 300rpm. Adsorption equilibrium and kinetic models were used to investigate the adsorption mechanism. It was found that the adsorption isotherms were well fitted by the Freundlich equation. The adsorption rate follows pseudo second order kinetics and the adsorption is spontaneous and exothermic. It is possible to recover Cr and carbon by NaOH stripping. 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subjects Activated carbon
Activation
Adsorption
Atomic oxygen
Carbon
Chromium
Ozone
Surface chemistry
title Preparation of activated carbon from carbonized rice husk by ozone activation for Cr (VI) removal
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